Panavia tornado
Panavia 200 tornado | |
---|---|
Tornado IDS of the German Air Force |
|
Type: | Fighter bomber |
Design country: | |
Manufacturer: | |
First flight: |
August 14, 1974 |
Commissioning: |
1980 |
Production time: |
1973 to 1999 |
Number of pieces: |
977 |
The Panavia 200 (PA-200) Tornado is a two-seat twin-engine multi-role combat aircraft with pivoting wings jointly by Germany , the UK and Italy was built.
The development and production of the aircraft was carried out by Panavia Aircraft GmbH , a consortium of BAE Systems , Messerschmitt-Bölkow-Blohm (now Airbus ) and Aeritalia (now Leonardo ). There are three main variants of the tornado, some of which are due to national modifications. The Tornado Interdiction / Strike or IDS is intended as a low-flying fighter-bomber , the Tornado ECR for electronic warfare and fighting opposing radar positions and the Tornado ADV as an interceptor . Not all variants were procured by all nations. The Air Force of Saudi Arabia was the only export customer to purchase the aircraft.
Its first combat missions took place in the second Gulf War by the British, Italian and Saudi Arabian air forces. Missions in the wars of Yugoslavia and Kosovo followed , in which the Bundeswehr participated for the first time . German tornados also flew reconnaissance missions as part of the ISAF mission and in northern Iraq .
history
prehistory
In 1967, the Netherlands , Belgium , Canada , Italy and the Federal Republic of Germany joined forces to form the F-104 Replacement Group in order to take up joint plans for a multi-role aircraft ( Multi-Role Aircraft 75 - MRA-75 ) as the successor to the Starfighter .
In Great Britain at the same time there was a need for a successor to the Canberra . Initially, a national development, the BAC TSR.2 , was worked on here. After this project was discontinued in 1965, the development of a joint fighter aircraft with swivel wings in the Anglo-French Variable Geometry (AFVG) program began together with France . In addition, the British armed forces considered the introduction of the General Dynamics F-111 . However, France withdrew from the AFVG project in June 1967 and about six months later the intention to purchase the F-111 was abandoned.
Great Britain decided in 1967 after initial coordination talks with the nations of the F-104 Replacement Group to participate in a joint project. In 1968, the participating countries signed an initial memorandum aimed at a joint project called Multi-Role Combat Aircraft (MRCA). At this point Canada and Belgium withdrew their participation, and the Netherlands followed shortly afterwards.
The definition phase began in 1969. The goal of the remaining nations Germany, Italy and Great Britain was to build a multi-purpose fighter that could cover the roles of conventional and especially nuclear air raids, aerial reconnaissance and naval warfare from the air. In the Warsaw Pact you saw an opponent who had a strong air defense and at the same time was able to use a large amount of force to take offensive action against NATO. The focus of the resulting operational requirements was therefore on a high degree of assertiveness and survivability. This should be achieved, among other things, through the ability to fly extremely low and to use weapons precisely in all weather conditions, day and night, and through effective self-protection equipment. In addition, it should be possible to use runways that could only be used to a limited extent after air raids. Britain also defined the need for a long-range interceptor.
In order to ensure that the governments involved are adequately represented in this multinational project, the nations decided to set up a joint organization under the umbrella of NATO, the NATO Multi-Role Combat Aircraft Development and Production Management Organization (NAMMO) . A separate agency, NAMMA, with staff from the three countries was founded as the executive body. In 1987, NAMMA's field of activity was expanded to include support during operations ( NATO Multi-Role Combat Aircraft Development, Production and In-Service Support Management Agency ). In 1995 the agency merged with NEFMA from the Eurofighter program to form NATO EF 2000 and Tornado Development, Production & Logistics Management Agency (NETMA).
The industrial groups involved in the program, British Aircraft Corporation (BAC), Messerschmitt-Bölkow-Blohm (MBB) and Fiat Aviazione , have merged to form the independent international Panavia Aircraft GmbH based in Munich , which had overall responsibility and sole responsibility in the production phase Was the contact for NAMMA.
In 1969 the tender to develop the engine was issued. Here, the British company Rolls-Royce with the Turbo Union RB199 engine prevailed against the American manufacturers Pratt & Whitney and General Electric , partly because of the high degree of technology transfer offered to the other participating nations. The consortium Turbo-Union Ltd. based in Great Britain, which comprised the companies Rolls-Royce, Motoren- und Turbinen-Union (MTU) and Fiat.
development
Development began on July 20, 1970, after Great Britain had established itself with the concept of the two-seat twin-engine aircraft. Characterized by the use of the F-104 and the Fiat G.91 as well as for cost reasons, Germany originally had only one pilot and only one engine. The number of aircraft planned was from 1,500 (GB: 300, D: 550, I: 200, others: 600) in 1968 including the British fighter version to 809 (GB: 385, D: 324, I: 100) in 1972 decreased. Overall, the delivery figures over the production and usage period added up to GB: 402, D: 357, I: 100. The production of the assemblies was based on a division of labor. The cockpit and tail section as well as the vertical stabilizer were manufactured by BAC (later BAE Systems), MBB (later: DASA or EADS ) manufactured the fuselage center section and the air intakes, Fiat (later: Aeritalia or Alenia Aeronautica ) the wings with the high- lift aids . The final assembly took place from 1973 on the three lines in Warton (Great Britain), Manching (Germany) and Turin (Italy).
Panavia Tornado prototypes | ||||
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No. | Mark | First flight | place | crew |
P01 | D-9591 | August 14, 1974 | Manching | Paul Millett, Nils Master |
P02 | XX946 | October 30, 1974 | Warton | Paul Millett, Pietro Trevisan |
P03 | XX947 | 5th August 1975 | Warton | David Eagles, Tim Ferguson |
P04 | D-9592 | 2nd September 1975 | Manching | Hans-F. Rammen lake, Nils master |
P05 | X-586 | 5th December 1975 | Caselle | Pietro Trevisan |
P06 | XX948 | 20th December 1975 | Warton | David Eagles |
P07 | 98 + 06 | March 30, 1976 | Manching | Nils Meister, Fritz Eckert |
P08 | XX949 | July 15, 1976 | Warton | Paul Millett, Ray Woolett |
P09 | X-589 | 5th February 1977 | Caselle | Pietro Trevisan, Manlio Quarantelli |
P10 | Used for soil testing only |
The first flight took place in Manching on August 14, 1974, and in 1976 the aircraft, previously known as MRCA, was named Tornado. The cost per aircraft was then given as 29.2 million DM . Additional expenses for spare parts, weapons, ground equipment and training were estimated at 15 million Deutschmarks. Ten prototypes and six pre-series aircraft, designated as P01 to P16 , were built for flight testing . The prototype P10 was only used for tests on the ground and has never flown. In 1979, the P08 prototype was the first tornado to crash, killing both crew members.
In 1980 the first tornado was delivered to the Tri-National Tornado Training Establishment (TTTE) in Cottesmore for training the aircrews. Equipment for the task forces in Great Britain and Germany began in 1982, followed by Italy in 1984 and Saudi Arabia as the only export customer in 1986 .
At the end of 1989, the US Department of Defense was investigating whether the tornado could be used by the American Air Force in the Wild Weasel role to replace the Phantom F-4G . However, this consideration was discarded in the early 1990s in favor of the existing F-16 .
The German Electronic Combat and Reconnaissance (ECR) variants were produced from 1990 to 1991. In 1991, the South Korean Air Force expressed an interest in purchasing 50 Tornado ECRs. Due to delays due to technical problems, the number was initially reduced to 24 and finally the intention was given up.
In 1995, 339 Tornado fighter planes were in service with the Bundeswehr (Air Force and German Navy ). The unit price (aircraft costs) was estimated at 55 million DM at that time.
In 1999 the last newly built tornado was delivered to the Saudi Arabian Air Force. A total of 977 aircraft were manufactured.
construction
The Tornado is a twin-engine shoulder- wing aircraft with swiveling wings in various, sometimes very different versions , within which there are numerous modifications. This results from the different requirements of the user states, the mission role or from urgent immediate needs, for example in missions.
cell
The materials used for the cell are light metals (71%), titanium (18%; mainly for the wing box), steel (6%) and other materials (5%).
Structure
The fuselage was provided with numerous access flaps due to the required ease of maintenance.
The wings of the tornado do not have conventional ailerons . The so-called tailerons attached to the stern serve as combined elevator and ailerons . They are supported by spoilers in the wings. The rudder is located on the rudder unit, and two parallel air brakes in front of the rudder unit .
For low flight speeds, for example during take-off and landing, the wing position of 25 degrees guarantees high maneuverability. In addition, all high-lift aids are only fully available in this sweep . The fuselage remains closed at the trailing edges of the wings by a self-inflating seal (wing pocket seal). The wings are basically swept in three positions (25, 45, 67 degrees), but can be adjusted continuously. An exception applies to the British GR.4 when 2250 liter under wing outer tanks are attached. In this case, the outermost pivot position is mechanically limited to 65 degrees. At very high speeds, the rearward-swept wings only cause minimal physical stress for the crew, even with strong gusts and turbulence in deep flight .
The pilot adjusts the wings manually. Only the F.3 tornadoes have automatic wing adjustment. However, this was not permitted in the RAF and only used by the RSAF.
Fuel systems
The Tornado has internal tank groups in the fuselage and in the wings. British-made tornadoes also use a tank in the vertical stabilizer. On the external load carriers under the wings and the fuselage there are mounting options for up to four external ones (1 × each on the inner wing load carrier L / H and R / H, 1 × each on the fuselage load carrier L / H and R / H or 1 × on the middle fuselage carrier) Additional tanks with 1,500 l (around 1,200 kg) or 2,250 l (around 1,800 kg) capacity. In addition, there is the option of air refueling using the extendable air refueling boom attached on the right-hand side below the cabin roof. The F.3 variant has a boom integrated in the fuselage on the left side.
landing gear
The three-legged landing gear from the English manufacturer Dowty, consisting of the main landing gear and the controllable twin nose wheel, is operated hydraulically. In an emergency, the extension can be achieved with an emergency system.
Emergency safety device
For emergencies (for example in the event of technical defects) in which an emergency safety system is to be used, the Tornado is equipped with a safety catch .
Avionics
The required skills to be able to carry out precise attacks by day and night and in any weather at low altitude were decisive factors for the composition of the avionics components of the Tornado.
The Tornado has a fly-by-wire system. On the one hand, this enables the simple integration of an autopilot and the best possible computer-assisted damping or amplification of control inputs depending, for example, on the flight speed, the angle of attack or the position of the wings or lift aids.
A heads -up display was installed in the front cockpit, primarily to support the deepest flight at treetop height during the day and aiming during weapon operations . This projects information from the main instruments and the navigation systems into the pilot's field of vision and serves as a sighting device. In case of bad weather or at night allowing terrain-following radar ( Terrain Following Radar - TFR ) in conjunction with the autopilot low altitude 60 meters altitude above ground.
In order to increase the probability of hits in blind attacks, the accuracy of the navigation system can be improved by comparing the image of the ground mapping radar (GMR) with measured reference points. By installing a laser gyro - INS and a GPS receiver in all aircraft, this is now only an emergency solution. The TFR and the GMR were produced by the American manufacturer Texas Instruments and were therefore the only parts in the basic version of the Tornado that were not made in Europe. It was not until the 219th radar was built that production was transferred to a consortium led by AEG .
In both cockpits there are display devices on which the aircraft position is shown on a map.
Radar warning receivers with appropriate displays are installed to visualize the threat situation . The self-protection systems are only integrated in the fuselage of the Tornado F.3 (Vicon 78 series 400). For all other variants are jammer (for example, Cerberus CIII, Sky Shadow), Heckling (eg Tornado Self Protection Jammer ) and decoy for chaff (chaff) and flares (flare) (for example Bofors BOZ-101 / -102 / -107 ) attached to the outer load carriers under the wings.
Engine
The three-shaft RB199 engines of the Tornado have infinitely adjustable afterburners and are equipped with a thrust reverser . This can be preselected in flight (activated when the main landing gear is put on) and enables - especially in connection with the wheel brakes - to shorten the required runway length. The engines can be lowered down for easy repairs.
For the autonomous startup on the ground without external support is an auxiliary power unit (English auxiliary power unit -. APU) used by KHD Oberursel developed and built single-shaft gas turbine T312. When the main engines are still inactive, they first drive the equipment carrier gears assigned to the two main engines via switchable friction clutches, and thus the power generators and the aircraft's hydraulic pumps. The starting process of the main engines can then be effected by means of the switchable hydraulic converters arranged in the equipment carrier gears.
Crew / cockpit layout
The tornado is a two-seat fighter aircraft . The crew usually consists of the pilot in the front cockpit and the weapons system officer (WSO) in the rear cockpit . The control devices and the avionics of the aircraft are designed in the so-called strike version so that there is a clear division of labor. The aircraft can only be controlled from the front cockpit. There is no control stick installed in the rear cockpit. The pilot's focus is on the safe conduct of the flight, a task that requires full attention, especially in deep flight. The WSO is mainly responsible for the navigation , the preparation of weapons and the operation of the self-protection equipment. Depending on the mission role and phase, individual tasks in the cockpit can be distributed differently, but maximum mutual support is always sought.
With the so-called trainer version, pilots can be trained and educated. These machines have a double steering system to enable a flight instructor to control the controls from the rear cockpit. Although these aircraft also differ from the regular emergency aircraft through various adjustments, for example in the instrumentation, they can largely be used for emergency flight operations (but only as IDS).
Rescue systems
As a rescue system for the Tornado of Martin-Baker - ejection seat , including the so-called "Zero / Zero" capacity, so the rescue of a Mk selected 10A which has the ability to rescue the crew of a wide band of attitudes on. aircraft standing on the ground.
After initiating rejects by pulling the trigger, a fully automatic sequence starts. First, the arms and legs of the pilot and WSO are pulled to the seats by belts to prevent injuries from wind pressure at high flight speeds. Almost at the same time, the cabin roof is blown off and the entire ejection seats are catapulted out of the aircraft. In order not to collide in the air, the respective rocket sets fire in such a way that first the rear seat and then, after a short delay, the front seat leave the aircraft. Subsequently, depending on the barometric altitude, a control screen is ejected, which brakes the seat and brings it into a favorable position in order to enable the main screen to be optimally opened and the seat to be separated from the pilot (seat-man separation).
An emergency oxygen bottle is attached to the seat, which ensures a supply of breathing air in the event of large rejects. In a container on which the crew member sits and to which they are connected by a narrow belt, various life-saving appliances are stowed that are required after landing on the ground or at sea (e.g. lifeboat, signaling devices, etc.). The life jackets, which are worn on every flight, include an emergency radio and, in the case of special vests for flights over sea, an integrated float that inflates itself when it comes into contact with water.
Technical specifications
Parameter | Tornado IDS / RECCE / ECR / GR.4 | Tornado ADV |
---|---|---|
length | 17.23 m | 18.68 m |
span |
8.56 m (swept 67 °) |
8.56 m (swept 67 °) |
height | 5.95 m | 5.95 m |
Wing area | 26.60 m² | 26.60 m² |
Wing extension |
2.78 (arrowed 67 °) |
2.77 (arrowed 68 °) |
Wing loading |
minimum (empty weight): 530 kg / m² |
minimum (empty weight): 545 kg / m² |
Empty mass | 14,092 kg | 14,501 kg |
Max. Takeoff mass |
IDS / RECCE: 28,500 kg |
27,987 kg |
internal tank capacity |
IDS / RECCE: 4,800 kg |
6,030 kg |
Top speed |
2,337 km / h ( Mach 2.2) at over 10,975 m |
2,414 km / h ( Mach 2.27) at over 10,975 m |
Rate of climb | 165 m / s | 203 m / s |
Service ceiling | 15,240 m | 17,070 m |
Engines | two turbofans Turbo-Union RB199 -34R Mk.103 (ECR: Mk.105) |
two Turbofans Turbo-Union RB199-34R Mk.104 |
Thrust (per engine) |
40.5 kN (ECR: 42.5 kN) (without afterburner) |
40.5 kN (without afterburner) |
Thrust-to-weight ratio |
maximum (empty weight): 1.09 |
maximum (empty weight): 1.16 |
1) Information relates to the Tornado GR.4
variants
There were two main variants of the Tornado , the Tornado IDS and the Tornado ADV . From the former there were later various derivations, among other things for the Enlightenment. The modifications were carried out at the national level, which is why there were a large number of different configuration states. To simplify matters, the modifications to its successor, the Eurofighter Typhoon , should be managed uniformly by NATO .
armed forces
Tornado IDS
The Tornado IDS / IDS-T ( Interdiction Strike ; German: Lockdown / Attack) is the basic version of the Tornado as a fighter-bomber and for the Recce reconnaissance version, the IDS-T is the trainer version with double controls. In contrast to the two other program partners (see below), the Bundeswehr has not introduced its own series designations.
Tornado Recce
The Tornado Recce (English military jargon for "Reconnaissance"; German reconnaissance ) is a Tornado IDS that can be used for imaging reconnaissance from the air (IMINT) through a reconnaissance container attached to the middle lower trunk station . Various technical adjustments are made for this, including the installation of an additional control panel in the cockpit. The tornadoes of the reconnaissance wing 51 also received the necessary wiring and cockpit displays for the new reconnaissance pod as part of the ASSTA-1 modernization.
Since 2009, the Bundeswehr Air Force has had the RecceLite digital reconnaissance system , with which a significantly higher quality of reconnaissance results and improved evaluation options can be achieved during operations. In addition, the reconnaissance results can be transmitted to the ground station in flight.
Since there is a limited evaluation possibility in the air, the system is only used optimally in connection with the ground evaluation station ( Recce-Ground-Station ). Reconnaissance missions are flown at low or medium altitude, depending on the sensors used and the threat.
Tornado ECR
After the production of the last IDS, 35 Tornado ECR ( Electronic Combat Reconnaissance ) were ordered by the Luftwaffe . The delivery lasted from January 1990 to September 1991. The special mission equipment includes improved cockpit displays, a forward-facing infrared sensor ( FLIR ) and the emitter locator system from the manufacturer Raytheon TI Systems - a system with which the precise position of radar systems is possible . The on-board cannons were removed due to the increased space required for the avionics. Upgraded MK-105 engines were used in the new aircraft.
Contrary to the original planning - with corresponding devices on the German aircraft - no ECR has an infrared reconnaissance sensor.
The task of the Tornado ECR is to detect, identify and, if necessary, combat enemy radar positions before enemy air defense forces endanger their own aircraft or the forces to be supported.
Modernizations
Tornado ASSTA 1
With the introduction of the ASSTA 1 (Avionics System Software Tornado in Ada , based on the experiences previously made when upgrading the British Tornadoes to the GR.4 (A) standard), the first increase in combat value of the basic version of the IDS essentially comprised the renewal of the weapons computer and its software on MIL-STD 1553 /1760 or Ada (MIL-STD 1815) . in addition, received a new navigation platform with laser inertial navigation (LINS) and the Tornado GPS , which replaced the previously only externally mounted GPS receiver. Moreover, Des was the Tornado the new ECM equipment Tornado Self Protection Jammer (TSPJ). The new weapon computer made it possible to integrate new weapons and components. This included HARM III, HARM 0 Block IV / V , Kormoran II , Litening II (Precision Target lighting container) .In the context of the latter, steering kits for the laser-guided bombs of the type GBU-24A / B Paveway III were procured.
ASSTA 1 also brought about organizational changes. Since increasing combat value is more and more a software development task, a cooperation with EADS Military was founded on the basis of the previous programming center of the Air Force, which was only responsible for the ECR tornadoes , which takes over the software maintenance for all Tornado versions .
All Tornado still in service have now received the ASSTA-1 modernization.
Tornado ASSTA 2
The next adaptation with ASSTA 2 covers two main areas: The Display System Upgrade (DSU) in both cockpits, including the human / machine interface (HMI), and the Tornado Defensive Aids Subsystem (TDASS), which improves the self-protection and survival systems. Capability over modern air defense systems.
As part of the display system upgrade, the pilot and weapon system officer receive more information than before in a clearer presentation. A new Pilot's Head Down Display (PHDD) is installed in the front cockpit and the Navigator's Head Down Display (NHDD) is installed in the rear cockpit . The screens provide the crew with a digital map of the area to be overflown, can show the tactical situation and give technical messages about the weapon system. In addition, a new colored Electronic Warfare Indicator (EWI) shows the pilot the current threat situation. In addition, the weapons system officer receives a control and display unit (CDU), a programmable combined control and display device to operate the various computers and, above all, the Tornado's Electronic Warfare Suite .
The modernization of the Tornado Defensive Aids Subsystem (TDASS) is running parallel to the changes in the cockpit . The assertiveness of the Tornado weapon system is to be sustainably improved against modern ground and airborne threats. In addition to the CDU, it includes a new radar warning receiver and an integrated Defensive AIDS Subsystem Computer (DAC). This computer coordinates all self-protection processes on board and thus relieves the crew during operations.
ASSTA 2 also integrates the HARM PNU and the Taurus cruise missile into the tornado. The first ASSTA-2 tornado was handed over to the Air Force in April 2010.
Tornado ASSTA 3
The modernization of ASSTA 3 is currently being carried out and includes the installation and integration of a Link-16 data connection via a MIDS-LVT and the integration of the laser and GPS-guided precision ammunition GBU -54 LJDAM .
The installation of the ASSTA-3 package in the tornado is planned for all remaining 85 Air Force tornadoes, which will also include Tornado ECRs (see above). The first two machines converted to this status were handed over to the Air Force in summer 2012 and are used by the Tactical Air Force Squadron 33 . By 2018, from mid-2015 as a "release" ASSTA 3.1, all 85 remaining machines should be upgraded to the ASSTA 3 or 3.1 status. On the software side, the remaining IDS and ECR tornadoes will then be identical. In terms of hardware, such as the on-board cannons missing from the ECR or the ELS missing from the IDS, there will still be differences that rule out that all tornadoes can be used for all operational roles.
Royal Air Force
Tornado GR.1
The Tornado GR.1 ( Tornado IDS ) was the original fighter-bomber version of the Royal Air Force . It provided the basis for various modifications.
Tornado GR.1A
A special version of the Tornado GR.1 was the Tornado GR.1A, which was specialized for the reconnaissance role. The reconnaissance sensors and the recording devices were completely built into the fuselage in this version. The space requirement of the sensors made it necessary to dispense with the two on-board cannons.
Tornado GR.1B
Another version was the Tornado GR.1B (24 pieces built), which could be used to support naval forces through the integration of the anti-ship missile Sea Eagle .
Tornado F.2
The introduction of the Tornado ADV ( Air Defense Variant dt .: air defense variant ) received the RAF a powerful long-range interceptor , the English Electric Lightning and the McDonnell Douglas F-4 superseded. The ADV differs from the fighter-bomber in various areas. The requirement for low-drag, semi-recessed accommodation for the Skyflash guided missiles as the main armament led to an elongated fuselage. This had the advantage that the tank capacity was increased by 900 liters. At the same time, the nose for the installation of the Foxhunter Radar was extended and new displays and electronics were installed. Because of these structural measures, it was given the nickname "Longnose". With the combat value increase for the ADV, the Capability Sustainment Program ( CSP ), the F.3 receives an AMRAAM (UK only) and ASRAAM integration, an enhanced Foxhunter radar, the Joint Tactical Information Distribution System (JTIDS) data communication system and more Avionics improvements. The first ADV were delivered to the RAF from 1979 as the Tornado F.2 with the MK-103- IDS engines. A total of 18 F.2 were built.
Tornado F.3
The final version of the Tornado ADV is the Tornado F.3 with AI.24 Foxhunter radar and more powerful MK-104 engines, which were delivered from 1985 onwards , which were optimized for use at medium and high altitudes.
Tornado EF.3
A special version of the Tornado F.3 was the Tornado EF.3. It was a matter of a few machines of the 11 Squadron, which were used against ground-based systems in the course of preparations for the 2003 Iraq war by integrating the ALARM in connection with the radar warning receiver Air defense could be used.
Tornado size 4
142 Tornado GR.1 / GR.1A were subjected to an upgrade (including the Sea-Eagle integration) to the version Tornado GR.4 / GR.4A. Essential components of the conversion were the installation of the forward-looking infrared sensor, improvements to the avionics (weapon electronics, head-up display, navigation system ( GPS , LASER INS , GPWS , digital map display)) and expansion of night combat capabilities. Due to the increased space requirement, an on-board cannon had to be omitted. The retrofitting began in 1997, and the first retrofitted machines arrived in 1998.
Tornado GR.4A
The Tornado GR.4A is the reconnaissance variant of the GR.4. The Tornado GR.4A is largely identical to the GR.4. The biggest difference is the internal sideways-looking infrared reconnaissance system for imaging reconnaissance in low-level flight.
To expand the capabilities and increase the flexibility of this system, the RAF on GR.4 (A) also uses external reconnaissance tanks with the RAPTOR (Reconnaissance Airborne Pod TORnado) and the Joint Reconnaissance Pod (JRP).
Aeronautica Militare
A-200A / C tornado
The 88 used machines of the Aeronautica Militare were (87 series and one modified pre-production) initially only Tornado IDS , of which some Recces with Aufklärungspod, with the Italian name A-200A. After a "mid-life update" they were named A-200C.
TA-200A / B tornado
The training units with double control, of which 12 were procured, were given the designation TA-200A. After a "mid-life update" they were named TA-200B.
EA-200B / D tornado
The Italian Air Force also decided to introduce Tornado ECR . However, they did not acquire any new ones, but converted sixteen aircraft from the IDS fleet between 1992 and 1994. German and Italian ECR are therefore different in a number of ways, such as avionics, engines, etc. After a “mid-life update” analogous to the IDS version, they were named EA-200CD.
Armament
The conception as a multi-purpose fighter aircraft requires the use of a wide spectrum of loads and armaments. For this purpose, on the one hand, it must be possible to attach it to corresponding external load carriers and, on the other hand, it must be possible to drop or operate it using the avionics.
- Attachment: The suspension points are on attachable / detachable external load carriers with heavy and light load suspension devices. As a rule, the heavy-duty suspensions are provided with detonation cartridges for an emergency release. The carriers on the swivel blades are automatically adjusted to the degree of the wing sweep.
- Avionics: System integration is required for the use of armament. It includes, among other things, the software adaptation of the weapon computer and the corresponding hardware equipment, for example the creation of appropriate cabling. For cost reasons in particular, all tornadoes were never brought to a uniform level.
Permanently installed internal on-board cannon
The Tornado is the only permanently installed armament to have one (GR.1A / 4A, ADV and GR.4) or two (IDS and GR.1 (B)) 27 mm Mauser BK-27 revolver automatic cannons . The BK-27 has a selectable cadence of 1,000 or 1,700 rounds per minute and can be used against air and ground targets. 180 rounds of belted ammunition of different modes of action can be carried per cannon.
Arming at external load stations
The standard basic load of a tornado used as a fighter-bomber includes two additional tanks under the wings on the indoor station and a maximum of two air-to-air missiles are mounted on launchers on the inner carrier for self-protection. Some external loads can only be added to the lower hull stations. For use as an interceptor, the Tornado ADV carries a maximum of eight air-to-air guided missiles .
Depending on the mission role, the tornado can carry the following weapons and sensors:
Number of stations |
Units per station |
weapon | description | Users | |||
---|---|---|---|---|---|---|---|
Air-to-air guided missile | |||||||
2-4 | 1 | AIM-9L Sidewinder | infrared controlled short-range air-to-air guided missiles | x | x | x | |
2-4 | 1 | AIM-132 ASRAAM | infrared controlled short-range air-to-air guided missiles | x | |||
2 | 1 | IRIS-T | infrared controlled short-range air-to-air guided missiles | x | |||
4th | 1 | Skyflash | radar-controlled medium-range air-to-air guided missile | x | x | ||
4th | 1 | AIM-120A AMRAAM | radar-controlled medium-range air-to-air guided missile | x | |||
Air-to-surface guided missile | |||||||
4th | 1 | AGM-88B HARM Block IIIB | Anti-radar air-to-ground guided missile | x | x | ||
4th | 1 | AGM-88E AARGM | Anti-radar air-to-ground guided missile | x | |||
9 | 1 | ALARM | Anti-radar air-to-ground guided missile | (x) | x | ||
4th | 1 | AS.34 cormorant | Anti-ship missile | (x) | x | ||
4th | 1 | Sea Eagle | Anti-ship missile | (x) | x | ||
4th | 3 | Brimstone | Anti-tank guided missile | x | |||
2 | 1 | Taurus | Air-to-surface cruise missiles | x | |||
2 | 1 | Storm Shadow | Air-to-surface cruise missiles | x | x | (x) | |
Guided bombs | |||||||
4th | 1 | GBU-12 "Paveway II" | laser-guided precision bomb | x | x | ||
4th | 1 | GBU-16 "Paveway II" | laser-guided precision bomb | x | x | ||
2 | 1 | GBU-24 "Paveway III" | laser-guided precision bomb | x | x | x | |
4th | 1 | GBU-32 | GPS-guided precision bomb | x | |||
3 | 1 | GBU-38/54 | GPS / laser-guided precision bomb | x | |||
2 | 1 | Enhanced Paveway II | laser-guided precision bomb | x | |||
2 | 1 | Paveway IV | laser-guided precision bomb | x | |||
Unguided bombs | |||||||
9 | 1 | Mk-80 series | Various unguided multi-purpose bombs | x | x | x | |
1 | 1 | MW-1 | Submunition container with variable submunition | (x) | (x) | ||
2 | 1 | JP233 | Submunition container with fixed submunition | (x) | (x) | ||
4th | 1 | BL755 | Cluster bomb with variable submunition | (x) | (x) | ||
2 | 1 | B61 | unguided nuclear weapon | x | x | ||
2 | 1 | WE.177 | unguided nuclear weapon | (x) |
- ↑ a b c Tornado ADV only
- ↑ a b c d e Retired
- ↑ Not yet integrated
- ↑ a b c d e Due to the Ottawa Convention retired
Additional container
By adding an air refueling container and installing the operating module, the Tornado is able to refuel other aircraft in flight with what is known as “buddy refueling”.
Drop tanks are available in two different sizes to increase the range :
- up to 4 × additional tanks for 1500 liters of fuel
- up to 2 × additional tanks for 2250 liters of fuel (so-called Hindenburg tanks)
The following container is used to practice bombing:
One of the following target light containers is used to direct precision bombs :
- Rafael Litening ( L ASER D esignator P od)
- TIALD-Pod ( T hermal I maging A irborne L aser D esignator Pod)
- Thomson CLDP ( C onvertible L aser D esignation P od)
Reconnaissance tank
The basic load of the reconnaissance plane corresponds to that of the fighter-bomber. In the case of the Tornado Recce and GR.4, one of the following reconnaissance containers is also attached under the fuselage:
- EADS Recce-Pod or Telelens-Pod (optical and infrared sensors)
- Rafael RecceLite (electro-optical and infrared sensors)
- RAPTOR ( R econnaissance A irborne P od Tor nado) (electro-optical and infrared sensors)
Self-protection systems
The following electronic jamming containers are used as active measures :
- 1 × GEC-Marconi (Selex) Sky Shadow or ARI.23246 / 1
- 1 × Selenia ALQ-234
- 1 × Elta Cerberus III
- 1 × AEG-Telefunken Cerberus 1
- 1 × Elta TSPJ (Tornado Self Protection Jammer, radar jammer)
The following decoy launchers are also used:
- 1 × CelsiusTech / SAAB BOZ-101/102
- 1 × CelsiusTech / SAAB BOZ-105 with launcher for 28 × flares and 540 × chaff strips
- 2 × Saab Avitronics BOZ-EC with four integrated MAW-300 missile approach warning devices and 5 × SAAB BOP-L-39 flare launchers, each with 39 × 1 "flare cartridges
The integrated radar warning receiver is a passive self-protection system .
Users
In addition to Germany, which received a total of 359 tornadoes from August 1980 to September 1991 and still had 185 copies in October 2011, Great Britain (398 copies), Italy (100 copies) and Saudi Arabia (120 copies) also introduced the tornado. In 2015, the Bundeswehr only had 85 tornadoes for the Air Force. The Navy has no more tornadoes in action. Great Britain, Germany and Italy operated a joint association, the Tri-National Tornado Training Establishment (TTTE), from 1981 to 1999 to train their crews at RAF Cottesmore airfield in Great Britain.
The user states are increasingly replacing the tornado with modern patterns for some of the intended tasks. Great Britain started a study with the Future Offensive Air System (FOAS) in the early 1990s , which was to find a successor. France and Germany showed interest in working on a joint successor model. However, the cooperation failed because of the exit of France and Germany's unwillingness. The Eurofighter and the US F / A-18 Superhornet are currently planned to close some of the capability gaps after the Tornado has been decommissioned. Later - if the findings of the FOAS studies are taken into account - the remaining skill gap will be closed by a combat drone .
Germany
Responsibilities in the support structure of the Bundeswehr
In 2018, a total of 13 departments were responsible for the Bundeswehr's support structure for the Tornado fighter aircraft:
Federal ministry of defense:
-
Federal Ministry of Defense in Bonn and Berlin with the equipment department in matters of commissioning and budgeting
-
Federal Office for Equipment, Information Technology and Use of the Bundeswehr in Koblenz for negotiations and contracts
- Defense technical department 61 in Manching and that
- Defense science institute for materials and supplies in Erding for investigation, testing and assessment
-
Federal Office for Equipment, Information Technology and Use of the Bundeswehr in Koblenz for negotiations and contracts
Armed forces:
- Luftfahrtamt der Bundeswehr in Cologne-Wahn for type certification, subordinate to the Inspector General of the Bundeswehr
-
Air force command in Berlin-Gatow for the troop service requirements of the operation, reports to the General Inspector of the Bundeswehr
-
Air force troop command in Cologne-Wahn to cover needs and ensure operational and support readiness
- Tactical Air Force Wing 33 in Büchel for training planning
- Tactical Air Force Wing 51 "Immelmann" in Jagel for training planning
- Weapon system support center 1 of the Air Force in Manching for operational logistics, repairs and system support
- Technical training center of the Air Force in Faßberg or Kaufbeuren for technical and logistical training
- Center for Electronic Combat Flying Weapons Systems in Kleinaitingen for technical and electronic support.
-
Air force troop command in Cologne-Wahn to cover needs and ensure operational and support readiness
Armed Forces Base (SKB):
- Logistics command of the Bundeswehr for the control of maintenance and logistics in Erfurt, is subordinate to the command armed forces base in Bonn.
Associations / agencies
In the Bundeswehr , the Tornado is or was used in the Air Force and the Navy with the IDS, Recce and ECR variants. The Navy used the tornado with a more extensive package of tasks than the Air Force. After the two naval aviation squadrons were dissolved, their main tasks were taken over by reconnaissance wing 51. The tornado is expected to be phased out by 2025.
Users | Association | Stationing place | comment |
---|---|---|---|
air force | Jagdbombergeschwader 31 "Boelcke" | Norvenich | first unit of the air force with the tornado (introduction: 1983/1984); Conversion to the Eurofighter weapon system since July 2010 |
Fighter-bomber squadron 32 | Lagerlechfeld | dissolved on March 31, 2013 | |
Tactical Air Force Squadron 33 | Büchel | Special weapons order in the context of nuclear participation and equipment with the conventional Taurus stand-off missile | |
Tactical Air Force Squadron 51 "Immelmann" | Jagel | only association with the RECCE Tornado; 2009 reduction to a scout squadron, 2012/13 takeover of ECR tornados from the disbanded JaboG 32, 2017 takeover of the training company from Holloman | |
Air Force Aviation Training Center |
Holloman AFB , New Mexico / USA |
Training association, training company discontinued in 2017 | |
Fighter Bomber Squadron 34 "Allgäu" | Memmingen | Dissolved in 2003 | |
Fighter Bomber Squadron 38 "Friesland" | Jever | Disbanded in 2005 | |
German Navy | Naval Aviation Squadron 1 | Jagel | Dissolved in 1993; first task force of the Bundeswehr with the tornado The machines were taken over by the air force. |
Naval Aviation Squadron 2 | Eggebek | Disbanded in 2005 | |
armor | Defense Technical Office 61 | Manching | testing |
German tornadoes in action
The tornado was used by the German Air Force both in the Bosnian conflict and in the Kosovo war for reconnaissance purposes and to combat enemy radar stations . At the request of NATO , the German government decided to undertake a time-limited reconnaissance mission to support NATO partners in Afghanistan within the framework of ISAF . This was of 20 April 2007 to 27 November 2010, six in Mazar-e Sharif in Mazar-i-Sharif completed stationed machines. In the Syria conflict , the German air force has six tornadoes from Incirlik for reconnaissance purposes. These are also used as part of Operation Inherent Resolve in northern Iraq .
Storage in the AMARG
From 1995 to March 2002, two specimens of the type were stored in the AMARG in Tucson , Arizona , in order to examine the consequences and possibilities of long-term conservation. Due to the need for retrofitting after the demotion, it was found that this was unprofitable, the two aircraft were then scrapped.
Great Britain
Associations
From the beginning of the 1980s, the GR.1 was introduced to the RAF - and also to the RAF Germany . At the end of the decade, four and three fighter-bomber squadrons were stationed at the RAF Brüggen and RAF Laarbruch bases . The first aircraft were withdrawn from RAF Laarbruch as early as the early 1990s , while the aircraft in RAF Brüggen were the last RAF aircraft in Germany and were still flying combat missions from Germany during the Kosovo war in 1999. The final season only moved back to the UK in 2001. The squadrons with the Tornado GR.4 are now stationed at the RAF Marham base . The last operational flight took place at the end of January 2019, at the beginning of February the last aircraft returned to Marham, where they took off for training flights until March before the last copies of the jet were decommissioned in the United Kingdom.
unit | Stationing locations | comment |
---|---|---|
2 (AC) Squadron |
RAF Laarbruch December 1988 to November 1991 RAF Marham November 1991 to January 2015 |
The Tornado GR4 will remain in Marham, but will be subordinated to the 12 (B) Squadron, the 2nd will be reorganized as Typhoon Squadron |
9 Squadron |
RAF Honington June 1982 to October 1986 RAF Brüggen to July 2001 RAF Marham 2001 to March 2019 |
|
12 (B) Squadron |
RAF Lossiemouth October 1993 to March 2014 RAF Marham January 2015 to March 2018 |
was reactivated again for “ Counter-Daesh ” in 2015 |
13 Squadron | RAF Honington January 1990 to February 1994 RAF Marham 1994 to May 2011 |
|
14 Squadron | RAF Brüggen November 1985 to January 2001 RAF Lossiemouth 2001 to May 2011 |
|
15 (Reserve) Squadron |
RAF Laarbruch July 1983 to December 1991 RAF Honington April 1992 to November 1993 RAF Lossiemouth November 1993 to March 2017 |
at RAF Germany as a deployment relay in England and Scotland as GR.1 / GR.4 retraining relay |
16 Squadron | RAF Laarbruch January 1984 to September 1991 | |
17 Squadron | RAF Brüggen March 1985 to March 1999 | |
20 Squadron | RAF Laarbruch April 1984 to July 1992 | |
27 Squadron | RAF Marham May 1983 to October 1993 | |
31 Squadron | RAF Brüggen September 1984 to August 2001 RAF Marham 2001 to March 2019 |
|
617 Squadron | RAF Marham January 1983 to 1994 RAF Lossiemouth 1994 to March 2014 |
will be reactivated as Lightning II season |
41 (Reserve) Squadron |
RAF Coningsby April 2006 to October 2017 | "Fast Jet and Weapons Operational Evaluation Unit"; Trial relay |
From the late 1980s, first the F.2 and then the improved F.3 were introduced to the RAF. The aircraft were stationed at RAF Coningsby in East Anglia, RAF Leeming in Yorkshire and RAF Leuchars near St Andrews in Scotland. The last Tornado F.3 squadron was decommissioned on March 22, 2011 at the RAF Leuchars airfield, from now on the tasks will be carried out by multi-purpose fighter aircraft of the type Eurofighter Typhoon FGR.4.
Another user (not listed in the following table) was QinetiQ , whose tasks are similar to those of the German WTD 61. This organization used version F.3 in MOD Boscombe Down until July 2012.
unit | Stationing locations | comment |
---|---|---|
5 Squadron | RAF Coningsby 1987 to January 2003 | |
11 Squadron | RAF Leeming 1988 to October 2005 | |
23 Squadron | RAF Leeming November 1989 to February 1994 | |
25 Squadron | RAF Leeming October 1989 to April 2008 | |
29 Squadron | RAF Coningsby 1987 to October 1998 | |
43 Squadron | RAF Leuchars September 1989 to June 2009 | |
56 (Reserve) Squadron | RAF Coningsby July 1992 to April 2003 RAF Leuchars 2003 to April 2008 |
was the F.3 retraining relay |
65 (Reserve) Squadron | RAF Coningsby December 1986 to June 1992 | In mid-1992 renaming to 56 (R) Squadron |
111 Squadron | RAF Leuchars January 1990 to March 2011 |
British tornadoes in action
Iraq
During the Second Gulf War , British and Saudi Arabian tornadoes flew around 1,600 bombs, dropping 4,250 free-fall bombs and 950 laser-guided bombs in Iraq. Six planes were lost during the war.
As part of Operation Desert Storm ( Operation Granby ), Great Britain stationed tornadoes in the Second Gulf War from August 1990 on the Saudi airfields Tabuk (GR.1) and Dhahran (GR.1, GR.1A, ADV) as well as in Muharraq (GR.1) in Bahrain .
At the beginning of the war, GR.1 first attacked airfields and air defense positions with JP233 , unguided 1,000-pound Mk-83 bombs and ALARM anti-radar missiles. After the loss of six machines, the Royal Air Force changed its approach and instead of flying at low altitude, had its aircraft operate exclusively at higher altitudes - and thus outside the range of enemy anti-aircraft guns. Furthermore, it fixed the lack of ability to use precision ammunition by moving Blackburn B-103 Buccaneer from Great Britain to the area of operation. They used the pave spike laser pod to illuminate targets for tornadoes armed with Paveway II bombs . In the further course of Operation Desert Storm, Tornado GR.1 were briefly equipped with the Thermal Imaging Airborne Laser Designator (TIALD) target illuminator in order to be able to design targets independently and fight them with laser-guided bombs.
The focus of the British GR.1A's mission was the aerial reconnaissance of Iraqi R-17 systems, which Tornado ADV operated in cooperation with Saudi forces to protect Saudi Arabia.
On 16./17. December 1998, Great Britain participated in Operation Desert Fox with the Tornado GR.1 stationed in Kuwait . Together with American cruise missiles and aircraft of the United States Navy (USN), these targets attacked Iraq.
As part of Operation Southern Watch , British tornadoes were used until 2003 to enforce the no-fly zone over southern Iraq. For this purpose, Tornado ADV flew from Prince Sultan Air Base in Saudi Arabia and GR.1, later GR.4, from Ali Al Salem Air Base in Kuwait .
In the third Gulf War from March 2003, British GR.4 flew from Kuwait and Qatar and Tornado ADV from Saudi Arabia as part of Operation Iraqi Freedom ( Operation TELIC ), which lasted until 2011. The Tornado GR.4 were subordinate to the 901 Expeditionary Air Wing , a mixed task force, at Al Udeid Air Base ( Qatar ).
Operation Shader (fight against IS in Iraq and Syria)
As of August 2014, six tornadoes, stationed in RAF Marham , flew from RAF Akrotiri in Cyprus on reconnaissance flights over Iraq and Syria. Since September 30, 2014, they have also been involved in combat missions there, and moved back to Marham in February 2019 . This was the last time British tornadoes were used.
Southeast Europe
With its Tornado ADV from March 31, 1993, the RAF reinforced the forces deployed in NATO's Deny Flight operation to enforce a no-fly zone over Bosnia.
During the Kosovo War , British tornadoes were used as part of Operation Allied Force . From April 4, 1999 they flew from Bruggen and from June 5, 1999 from Solenzara in Corsica, attacks against Serbia. Her mission ended when she was transferred back on June 22, 1999.
Falkland Islands
To protect the Falkland Islands , the Royal Air Force operated a mixed squadron ( 905 Expeditionary Air Wing ) at RAF Mount Pleasant airfield near Stanley . As a contribution to the airborne air defense, four Tornado ADV were stationed there at 1435 Flight. In mid-September 2009, four Typhoon FGR.4 arrived on the islands to replace the tornadoes.
Afghanistan
In mid-2009, the RAF replaced the Harrier stationed in Kandahar , Afghanistan, with eight tornadoes. The aircraft were assigned to the 904 Expeditionary Air Wing as a fighter-bomber and for aerial reconnaissance.
Italy
Associations
Four squadrons were equipped with the combat aircraft until September 2016, and since then there have been three: The 154º Gruppo (squadron) of 6º Stormo (squadron) in Ghedi received the first tornado at the end of August 1982. This fighter-bomber squadron has remained in Ghedi to this day and can use US nuclear weapons as part of nuclear participation . 155º Gruppo was temporarily stationed in Ghedi and Istrana (51º Stormo) in the 1980s and came to the modernized Piacenza airfield in 1991 . After the conversion to ECR tornadoes, the Suppression of Enemy Air Defenses (SEAD) became their main mission. In September 2016 the 155º Gruppo returned to Ghedi. The 156º Gruppo was part of the 36º Stormo in Gioia del Colle in southern Italy until 2008 . This squadron could also use nuclear weapons. Another mission of the squadron was sea warfare from the air (Tactical Support of Maritime Operations) . In the train of the stationing of the F-2000A Typhoon (Eurofighter) at the airfield in Gioia del Colle, the 156º Gruppo was moved to Ghedi in July 2008 and disbanded there in September 2016. The 102º Gruppo flew the F-104ASA "Starfighter" until the 1990s and was then relocated and converted from Rimini-Miramare (5º Stormo) to Ghedi. It is responsible for the retraining and training of pilots and weapons system officers.
The Italian Air Force leased a total of 24 Tornado F.3 interceptors from the British Royal Air Force between 1994 and 2004 due to the delays in the introduction of the Eurofighter. These were mainly used at the 12º Gruppo / 36º Stormo in Gioia del Colle. After the lease expired, the RAF gave the Italian Air Force Museum in Vigna di Valle a Tornado ADV. Italy waived an extension of the leasing contract in favor of the F-16 and the F-2000A Typhoon, which is now being sold.
unit | Stationing place | comment |
---|---|---|
102º Gruppo / 6º Stormo | Ghedi since 1993 | A / TA-200A Tornado IDS; primarily training tasks |
154º Gruppo / 6º Stormo | Ghedi since August 1982 | A / TA-200A Tornado IDS; primarily fighter-bombers |
155º Gruppo / 6º Stormo 155º Gruppo / 50º Stormo 155º Gruppo / 6º Stormo |
Ghedi 1985 to July 1990 Piacenza July 1990 to September 2016 Ghedi since September 2016 |
A / EA-200A / B Tornado IDS / ECR; primarily SEAD |
156º Gruppo / 66º Stormo 156º Gruppo / 6º Stormo |
Gioia del Colle 1984 to July 2008 Ghedi July 2008 to September 2016 |
A-200A Tornado IDS; primarily education |
12º Gruppo / 36º Stormo | Gioia del Colle 1994 to 2004 | Tornado F.3 |
21º Gruppo / 53º Stormo 21º Gruppo / 36º Stormo |
Cameri 1997 to 1999 Gioia del Colle 1999 to 2001 |
Tornado F.3 |
Italian tornadoes in action
Italy stationed IDS tornadoes in Abu Dhabi (“Operazione Locusta”) during the Second Gulf War . A tornado was shot down in the air war operations against Iraq. The crew became a prisoner of war.
In 1999 Italy deployed 18 IDS and four ECR tornadoes as part of Operation Allied Force .
From November 2008, the Italian Air Force deployed two tornadoes from Mazar-e Sharif as reconnaissance aircraft in Afghanistan. In November 2009 it was replaced by AMX .
Saudi Arabia
Associations
Saudi Arabia is Panavia's only export customer. As part of the Al-Yamamah arms treaties, Saudi Arabia and Great Britain agreed to deliver tornadoes to the Royal Saudi Air Force . The aircraft manufacturer is BAE Systems. From 1986 to 1999 96 Tornado GR.1 (including 6 GR.1A) and 24 Tornado ADV were delivered from Great Britain to Saudi Arabia. The ADV were retired in 2007. 84 machines are to be upgraded as part of the Tornado (Capability) Sustainment Program (introduction of GPS, improved cockpit displays, new radios, integration of new target systems and armament). The fighter-bombers and scouts are stationed in Dhahran on King Abdullah Aziz Air Base.
Users | unit | Stationing place | comment |
---|---|---|---|
11 wing | 7 Squadron | Dhahran | additional information and training assignment |
75 Squadron | Dhahran | - | |
83 Squadron | Dhahran | - | |
7 wing | 29 Squadron | Taboo | only ADV season; Inflow from 1989 |
- | 66 Squadron | Dhahran | dissolved |
Saudi tornadoes in action
Tornadoes of the Saudi Arabian Air Force were used in both air-to-air and air-to-ground roles from Dhahran airfield during the second Gulf War. In November 2009, Saudi Arabia carried out air strikes against rebels in Yemen using tornadoes .
losses
All user states of the tornado suffered numerous casualties in peacetime and training flight operations from ground and aviation accidents, in which mostly the crews were able to save themselves thanks to the sophisticated ejection seat, but numerous soldiers also lost their lives. The number of German tornadoes alone has decreased by around 45 machines since its introduction. Even before operational use, a prototype crashed on April 16, 1980 near Geiselhöring , killing both test pilots. On July 3, 2012, two Tornado GR.4 of the Royal Air Force crashed over the Scottish east coast ( Moray Firth ). One crew was rescued, the other has so far been missing. The Italian Air Force suffered the last total loss of a tornado during training flight operations with loss of the crew on August 19, 2014. After a mid-air collision, two tornadoes of the 6º Stormo from Ghedi crashed.
In a few cases, the causes of the accidents could only be traced back to technical failure; the reasons for the crash were mostly blamed on the crews. On the part of the pilots, these are, for example, spatial disorientation or incorrect distribution of attention, and on the part of the organization, for example, training deficits or missing equipment, which, in addition to exceeding the performance parameters of the aircraft or restricting the avionics, can lead to accidents. But even with - at first glance - unambiguous "pilot errors", aircraft accident investigations showed that - as with other weapon systems - often no clear, sole misconduct could be defined as the cause, but almost always a combination of several factors led to the accident or incident. Overall, however, the ratio of flight hours to accidents in a tornado is comparable to that of other western military aircraft.
The most common cause of losses from British, Italian and Saudi Arabian tornadoes in combat operations was fire from (usually enemy) air defense . Most recently, however, a Royal Air Force tornado was unintentionally shot down by an American MIM-104 Patriot anti-aircraft missile system .
The last crash of a tornado of the Bundeswehr ( Tactical Air Force Squadron 33 ) occurred on January 16, 2014 at around 9:30 p.m. near Laubach (Eifel) near the A 48 . The machine was approaching the Büchel Air Base before it crashed into a wooded area about four kilometers from the runway. The crew was able to save themselves with the ejection seat.
Comparable types
- Russia :
- Sukhoi Su-22 Fitter
- Sukhoi Su-24 Fencer
- France :
- Dassault Mirage 2000
- Xian JH-7 Flounder
See also
Issued copies
In the meantime, some tornadoes can already be viewed in museums, examples of the Luftwaffe in the Military History Museum at Berlin-Gatow Airfield and in the Schleissheim aircraft yard near Munich (Deutsches Museum FWS) as well as in the Bulgarian National Military History Museum in Sofia , two of the Navy (MFG 2) in the Aeronauticum south of Cuxhaven . One example was set up in the Siegburg Brückberg barracks in 2008 , and there is also a tornado on the grounds of the Fürstenfeldbruck air base not far from the Luftwaffe officers' school . The sixth prototype with the serial number 06 can be seen in the Hermeskeil flight exhibition . 43 + 96 is in front of the main gate in Jagel. Two copies are set up at TaktLwG33 in Büchel, one in the air barracks in front of the troop kitchen with work number 45 + 44 and one at the main station of the air base with work number 43 + 01. The tornado with the tactical sign 43 + 86 is set up at the main entrance of MTU Aero Engines in Munich. The aircraft with the tactical number plate 44 ÷ 31 (Blue Lightning) is at the TaktLwG31 in Nörvenich behind the main station. The 44 + 08 from JaboG 38 “Friesland” with its special paint scheme is in the entrance area of the main guard at Upjever Air Base.
literature
- Hans Apel : The descent. Politisches Tagebuch 1978-1988 , Deutsche Verlags-Anstalt, Stuttgart, 3rd edition 1990, ISBN 3-421-06559-4 , pp. 162-172
- Glenn Ashley: Panavia Tornado in Action , Squadron / Signal Publications, Carrollton 1991, ISBN 0-89747-234-9 .
- Federal Ministry of Defense: White Paper 2006 on Germany's Security Policy and the Future of the Bundeswehr, Berlin 2006.
- Paul Eden & Soph Moeng: Modern military aircraft. Bassermannverlag, Munich 2003, ISBN 3-8094-1532-4 .
- Bill Gunston: Panavia Tornado (Modern Combat Aircraft 6) , Ian Allan, Shepperton 1980, ISBN 0-7110-1009-9 .
- Paul Jackson: RAF Tornado , Ian Allan, Shepperton 1986, ISBN 0-7110-1656-9 .
- Walter Jertz : Tornado . Technology tactics use. 1st edition. Bernard & Graefe, Bonn 2005, ISBN 3-7637-6256-6 .
- Francis K. Mason: Tornado. Development - technology - commitment. Motorbuch Verlag, Stuttgart 1989, ISBN 3-613-01286-3 .
- Werner Meyer-Larsen: The Manching Monster , in: Der Spiegel 6/1981, p. 34-46 here:
- Thomas Raabe: Soaring ambitions. The federal governments and the Airbus project (1969-1981) , Campus Verlag, Frankfurt / New York 2020, ISBN 978-3-593-51219-8 .
- Peter Steinmüller: How the Panavia Tornado advanced European aircraft construction , vdi-nachrichten.com
- Bernd Vetter / Frank Vetter: The Tornado , Motorbuch Verlag, Stuttgart 2010, ISBN 978-3-613-03224-8 .
Web links
- Brief description ( Memento of December 29, 2008 in the Internet Archive ), EADS
- Manufacturer website (English)
- Description of the tornado history (with prototype gallery)
- Datasheet for the Panavia Tornado on Luftwaffe.de
- Royal Air Force website
- Aeronautica Militare website (Italian)
Individual evidence
- ↑ a b c d e f The birth of Tornado. In: Royal Air Force Museum. Royal Air Force Historical Society, 2002 Postcombe, ISBN 0-9530345-0-X .
- ↑ The retired fighter bomber. In: handelsblatt.com.
- ↑ NETMA ( Memento from June 27, 2009 in the Internet Archive ), Transformation Network Website of NATO (English)
- ↑ a b Jertz: Tornado. 2005, p. 101.
- ↑ Like on a rocket . In: Der Spiegel . No. 19 , 1976 ( online ).
- ↑ RSAF tornadoes on tornado-data.com; accessed on January 8, 2008
- ↑ Tornado gets Wild Weasel chance. (PDF) in: flightglobal, September 10, 1988
- ↑ a b c Tornado ECR - Archived 03/2003. ( Page no longer available , search in web archives ) Info: The link was automatically marked as defective. Please check the link according to the instructions and then remove this notice. ( Microsoft Word , 64 kB) In: Forecast International (English)
- ↑ German Bundestag : Printed Matter 13/5571, September 23, 1996
- ↑ Vicon 78 on International 14. – 20. November 1990 (PDF; 1.48 MB; engl.)
- ↑ Hujer, Helmut; 125 years of Motorenfabrik Oberursel - 1892 - 2017; Oberursel 2017; Chapter 10 "The auxiliary power system of the MRCA Tornado"
- ↑ Mk. 10A on the website of Martin-Baker Aircraft Co. Ltd. ( Memento of the original from October 7, 2007 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice.
- ↑ Strategy and Technology 04/07 ( page no longer available , search in web archives ) Info: The link was automatically marked as defective. Please check the link according to the instructions and then remove this notice. (PDF; 336 kB)
- ↑ http://www.ainonline.com/aviation-news/defense/2010-04-16/first-modernized-tornado-delivered-luftwaffe >
- ↑ Description of the upgrades on the manufacturer's website; accessed on January 1, 2010
- ↑ Article in: Aktuell - Zeitung für die Bundeswehr, Volume 48, No. 27 of July 16, 2012 ( page no longer available , search in web archives ) Info: The link was automatically marked as defective. Please check the link according to the instructions and then remove this notice. , P. 8. ISSN 1618-9086
- ^ Tornado ADV on the official RAF website; accessed on January 8, 2009
- ↑ Description of the expanded capabilities through the CSP on the Panavia website; Accessed January 5, 2009
- ↑ Tornado F3 ( Memento of the original from March 14, 2008 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the RAF website; Accessed January 9, 2009
- ↑ British Military Aviation in 1997. ( Memento of the original from September 5, 2008 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the RAF Museum website; accessed on February 1, 2009
- ↑ Tornado GR.4 boosts front-line ( Memento of the original from July 9, 2008 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on aviation news; accessed on February 1, 2009
- ↑ Description of the Tornado GR.4 (A) ( Memento of the original from January 8, 2009 in the Internet Archive ) Info: The archive link was automatically inserted and not yet checked. Please check the original and archive link according to the instructions and then remove this notice. on the BAE Systems website; accessed on January 11, 2009
- ↑ Report on theaviationist.com (English); accessed on April 28, 2018
- ↑ Report on Janes.com, accessed on February 28, 2014
- ^ Report on the Bundeswehr website, viewed on August 16, 2013
- ↑ Bundestag printed paper 16/2456 of August 25, 2006 (PDF; 176 kB)
- ↑ Phasing out of the MW-1 with mine loading by the Italian Air Force ( Memento of the original from July 21, 2006 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. (PDF; 1.1 MB) on the landmine action website
- ↑ Official report of the British Parliament of October 25, 1999 at publications.parliament.uk, accessed on November 23, 2008
- ^ Report on the FOIA (Freedom Of Information Act) Center website, accessed November 23, 2008
- ↑ RecceLite of the Air Force on the Air Force website; Accessed September 21, 2009
- ↑ Keyword: tornado and reconnaissance tornado. In: www.bmvg.de. November 26, 2015, accessed November 29, 2015 .
- ↑ Information from the Armed Forces Commissioner - Annual Report 2018 (60th report), page 14. In: dip21.bundestag.de . January 29, 2019, accessed January 29, 2019 .
- ↑ Tornado successor: Team Eurofighter presents offer to Germany
- ^ Introduction of the tornado on the Air Force website ; accessed on January 8, 2009
- ↑ Benedikt Hoff: Tornado training moves from New Mexico to Northern Germany. In: Luftwaffe.de. Air Force Press and Information Center, April 3, 2017, accessed on November 13, 2018 .
- ↑ History of the Naval Aviation Squadron ( Memento of the original from December 23, 2007 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the website of the Federal Archives ; accessed on January 8, 2009
- ↑ Marinefliegergeschwader 1 on fly-navy.de ( Memento of the original from September 2, 2005 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. accessed on January 8, 2009
- ↑ Article at Luftwaffe.de
- ↑ Press release Tornadoes left Afghanistan on November 27, 2010 on the Air Force website; accessed on November 29, 2010
- ↑ Weapons System Support Center 1: Erding Air Base . September 16, 2014. Ed .: Lothar Fölbach Medienservice. 1st edition. Fölbach Verlag, Munich 2014, p. 41 .
- ↑ a b Craig Hoyle: PICTURES: RAF Tornados complete operational duties. February 6, 2019, Retrieved February 6, 2019 (UK English).
- ↑ Royal Air Force: Fifth Typhoon Squadron set up, The RAF has rededicated the II (AC) Squadron from a Tornado to a Eurofighter formation with a celebration in Marham. www.flugrevue.de, January 12, 2015, accessed on March 6, 2015 .
- ↑ 41 (R) Squadron on the RAF website; Accessed January 9, 2009
- ↑ Press release "No 43 (Fighter) Squadron Disbanded" ( Memento of the original from November 22, 2011 in the Internet Archive ) Info: The archive link has been inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the RAF website; Accessed July 15, 2009
- ↑ List of the forces of the Royal Air Force ( Memento of the original from October 27, 2008 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the RAF website; accessed on February 1, 2009
- ↑ British Military Aviation in 1998 ( Memento of the original from November 5, 2008 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the Royal Air Force Museum website; accessed on February 1, 2009
- ↑ Memorandum submitted by the Ministry of Defense (March 20, 2000) ( Memento of the original of July 4, 2007 in the Internet Archive ) Info: The archive link was automatically inserted and not yet checked. Please check the original and archive link according to the instructions and then remove this notice. on fas.org; accessed on February 1, 2009
- ↑ War in Iraq - Forces: US & Coalition / RAF on CNN.com; accessed on February 1, 2009
- ↑ British Military Aviation in 2003 ( Memento of the original from January 31, 2009 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the Royal Air Force Museum website; accessed on February 1, 2009
- ↑ Spiegel Online Accessed October 1, 2014
- ↑ Forces.net Accessed February 6, 2019
- ^ British Military Aviation in 1993 ( Memento of the original dated December 6, 2010 in the Internet Archive ) Info: The archive link was automatically inserted and not yet checked. Please check the original and archive link according to the instructions and then remove this notice. on the Royal Air Force Museum website; accessed on February 1, 2009
- ↑ British Military Aviation in 1999 ( Memento of the original from December 11, 2008 in the Internet Archive ) Info: The archive link was automatically inserted and not yet checked. Please check the original and archive link according to the instructions and then remove this notice. on the Royal Air Force Museum website; accessed on February 1, 2009
- ^ The 905 Expeditionary Air Wing on the UK Department of Defense website ; Accessed January 9, 2009
- ↑ The 904 Expeditionary Air Wing ( Memento of the original from December 10, 2009 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the RAF website; accessed on January 14, 2010
- ↑ List of the forces involved in Operation Desert Storm ( memento of the original from April 19, 2009 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the Royal Air Force website; Accessed January 30, 2009
- ↑ Operation ALLIED FORCE - Kosovo Order of Battle on Globalsecurity.org; Accessed January 31, 2009
- ^ Four Italian Tornados head for Afghanistan on Flightglobal.com; accessed on January 14, 2010
- ↑ Summarized Jane's report on the increase in combat value of Saudi tornadoes
- ↑ The Air Force of Saudi Arabia (PDF; 356 kB) in "Flight International" 2. – 8. December 1998 on flightglobal.com (English)
- ↑ List of the forces involved in Operation Desert Storm ( memento of the original from April 19, 2009 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. on the Royal Air Force website; Accessed January 30, 2009
- ↑ Press release - Saudi jets' attack Yemen rebels from November 5, 2009 on the BBC website; accessed on January 14, 2010
- ↑ List of commissions from the tornado ( Memento of the original from July 22, 2011 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice.
- ↑ Overview of accidents with German military aircraft
- ↑ Two missing after two RAF Tornados crash in Moray Firth on BBC News of July 3, 2012; Accessed July 18, 2012
- ↑ http://www.aeronautica.difesa.it/News/Pagine/20140823_IncidenteDiVoloTornado.aspx
- ↑ Take it easy, okay . In: Der Spiegel . No. 40 , 2002 ( online ).
- ↑ Danger in a tornado . In: Der Spiegel . No. 29 , 2003 ( online ).
- ↑ German Bundestag - 14th electoral term, printed matter 14/4867 (PDF; 910 kB)
- ↑ RAF loss rates ( Memento of the original from September 1, 2008 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice.
- ↑ BBC News, April 9, 2004
- ↑ Pilots survive crash - search for the cause of the tornado crash is in progress , accessed from SWR.de on January 18, 2014. Quotation from the squadron commodore: "[...] The aircraft was [...] on the final approach for the purpose of landing on the airfield, here in Büchel; the machine was about four to five kilometers away, then disappeared from the radar screens. [...] "
- ↑ Combat aircraft: Bundeswehr tornado crashed in the Eifel - Panorama - Süddeutsche.de. In: sueddeutsche.de. Retrieved January 16, 2014 .